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A UK Perspective on Energy Transitions
and ‘Green Growth’
Prof. Peter J G Pearson Director, Low Carbon Research Institute of Wales
Cardiff University
KAPSARC Workshop:
A Framework for Technology & Fuel Transitions in Energy
12 November 2013, Riyadh
The UK Low Carbon Transition: A Timeline
1940s: energy utilities (coal, gas, electricity) nationalised
1987-1994: utilities privatised; ‘dash for gas’ (CCGTs)
2008: Department of Energy & Climate Change created
2008: Climate Change Act (all-party support)
– State commitment: cut GHG emissions to 80% of 1990 levels
– Independent Committee on Climate Change recommends 5-year
carbon budgets (caps), 15 years into future
2009: Low Carbon Transition Plan; 2011: Carbon Plan
2013: Energy Bill – includes Electricity Market Reform:
– UK carbon price floor for electricity
– Feed-in-tariffs (CfDs) for low carbon electricity
– Capacity market (auctions for new capacity, inc. storage & DSR)
– Emissions performance standard for new fossil stations
Where next?
Electricity market dominated by 6 vertically-integrated
firms
Transition Pathways: Consortium & Aims
Interdisciplinary University Consortium
– Universities: Bath, Cardiff, East Anglia, Imperial College London, Leeds, Loughborough, Strathclyde, Surrey, UCL
– Funded by EPSRC & E.On UK (2008 - 2012)
– ‘Realising Transition Pathways’ (2012 –16), EPSRC funded
Aims:
– Develop three transition pathways to a ‘more electric’ low carbon future in the UK, including heat & transport
– Integrated ‘whole system’ assessments of pathways’ technical, economic, social & environmental implications
– Inform thinking/ decisions on low carbon transitions & ‘how to get there from here’
Approach
– Pathways reflect ‘co-evolution’ of technologies, institutions, strategies/policies & user practices
Focus on Actor Groups & Governance
How three actor groups formulate energy system visions &
interact across the energy action space.
State, Market & Civil Society groups follow different
‘logics’ that frame their views of the world & of other actors;
they seek to ‘enrol’ others into their way of thinking:
– Central Co-ordination sees a dominant role for state actors
to co-ordinate energy systems to deliver policy goals
– Market Rules says energy policy objectives are best achieved
by market actors competing in a high-level policy framework
– Thousand Flowers sees citizens playing a leading role in how
the energy system operates & is governed
We used this to explore low carbon transition pathways to
2050; each pathway built around a logic.
Action-Space Approach to Governance –
3 Key Actor Groups: State, Market & Civil Society
Market
‘logic’
State
‘logic’ Civil Society
‘logic’
?
Choices depend on actors’ competing
‘logics’: messy, dynamic, interactive
Action-space maps shifting relationships
Via their interactions, each actor tries to
‘enrol’ the others in their logic
The dominant actor – i.e. best ‘enroler’ -
defines that period’s action-space
Influencing the pathway & its branching
points
UK recent move from the market towards
the state logic – a ‘hybrid’
With questions about civil society’s role,
especially in low carbon heat transition
Source: Jacquie Burgess & Tom Hargreaves –
Transition Pathways Project (see Foxon, T.J.
2013 )
The Action Space for Transition Pathways
Market-led
pathway: Market
Rules
Civil society-led
pathway: Thousand
Flowers
State-led pathway:
Central co-
ordination
Past
regimes
Future
regimes Action
Space 1
Three Core Pathways & Governance Modes
Market rules
Central co-ordination (state-led)
Thousand Flowers
Three Transition Pathways for UK Electricity
1) Market Rules
• Limited interference in market arrangements; high carbon price
• Large companies dominate; big technologies in ‘highly electric’ future
– inc. coal/gas with CCS, nuclear power, offshore wind
• 80% generation linked to high-voltage in 2050: grid reinforcement
2) Central Co-ordination
• Central government & Strategic Energy Agency commission tranches
of low-carbon generation from big companies
• Via large-scale centralised technologies
• Cooperation & tensions between key actors
3) Thousand Flowers:
• More local, bottom-up diverse solutions led by ESCOs (big & small),
local communities & NGOs: closer engagement of end-users
• Local leadership in decentralized options (50% share)
• Key technologies: onshore & offshore wind, renewable CHP & solar
PV; ‘smart grid’ technologies to handle power flows
High level challenges for the UK Transition
Balancing the Policy Trilemma:
– Reduce carbon emissions (UK territorial & life-cycle)
– Maintain energy security (supply-demand balance, supply diversity)
– Affordability, equity & competitiveness of energy services (investment
& system costs; customer bills; trade)
Systemic factors:
– Technical feasibility
– Institutional Flexibility
– Social acceptability
– Environmental impacts
– Economic impacts - Who benefits? Who pays?
Evolving governance: where will the current State/Market
hybrid go?
A Perspective on Energy Transitions & ‘Green Growth’
Energy transitions & ‘green growth’ depend, inter alia, on
the interplay within & between 3 ‘trilemmas’:
– Energy system governance trilemma
» The roles of the market, the state & civil society
– Energy policy objectives trilemma
» Climate & Environment; Energy Security; Equity, Affordability
& Competitiveness
– Technology & growth trilemma
» Technological dynamism; wide range of general uses; users
improve own technologies, find new uses
The interplay of these trilemmas will exert major
influences on energy transition & ‘green growth’ pathways
& outcomes.
The Energy Policy Trilemma
In the UK & other countries we have seen & will see
changing priorities between these three objectives
Energy Policy
Space
Climate &
Environment
Equity,
Affordability &
Competitiveness
Energy Security
The Technology & Growth Trilemma
General Purpose Technologies (GPTs) led to the sustained
technical progress & growth of past industrial revolutions
3 attributes of GPTs (e.g. steam engine, electricity, ICE, ICT)
– Technological dynamism: continued innovation - costs
fall/quality rises
– Pervasiveness: widely diffused & with many general uses
– Innovational complementarities: users improve own
technologies/find new uses
Techno-
logy &
Growth
space
Technological
Dynamism
New &
Improved
uses
Wide
Diffusion
& Uses
Bringing the trilemmas together
Successful energy transitions & ‘green growth’ will be
influenced by how a country handles these trilemmas
– The ranking of its energy policy objectives
– The logic & mode of governance it chooses & how it
engages with key actors
– The attributes of the energy supply & use technologies
& practices it develops
And by how these three elements interact with & feed
back onto each other
State
Market
Civil
Society
Actors &
Governance
Space
Energy
Policy
Space
Climate &
Environment
Equity,
Affordability
&
Competitiness
Energy
Security
Techno-
logy &
Growth
space
Technological
Dynamism
New &
Improved
uses
Wide
Diffusion
& Uses
Energy
Policy
Actors &
Governance
Techno-
logy &
Growth
Policy, Governance, Technology &
Growth Spaces: 3 Trilemmas & a
Tetrahedron
Policy/Governance/Technology Space
This reminds us to think about
– What should policies aim for?
– Who aims & with what forms
of governance?
– With what technologies &
practices?
How might the interplay between
energy policy, governance,
technology & ‘green growth’ play
out (locally, nationally, globally)
in future pathways?
Energy
Policy
Actors &
Governance
Technology &
Growth
Conclusion
Energy transitions & ‘green growth’ depend, inter alia, on
the interplay within & between 3 ‘trilemmas’:
– Energy system governance
» Roles of market, state & civil society
– Energy policy objectives
» Climate & Environment; Energy Security; Equity, Affordability
& Competitiveness
– The attributes of energy technologies
» Technological dynamism; wide range of general uses; users
improve own technologies, find new uses
The trilemmas will exert major long-term influences on
energy transition pathways & their outcomes
– With implications for energy policy & industrial policy
Sources & Notes
Note: This presentation draws on research by the author & colleagues in the Realising Transition Pathways project,
funded by EPSRC (Grant EP/K005316/1) http://www.realisingtransitionpathways.org.uk/. He is responsible for all
views stated.
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